Effect of Increase in Dialysate Bicarbonate Concentration on Acid-Base and Respiratory Status of Hemodialysis Patients

Effect of Increase in Dialysate Bicarbonate Concentration on Acid-Base and Respiratory Status of Hemodialysis Patients. Abstract Background: The appropriate hemodialysis dialysate bicarbonate concentration isn’t clear. The recommended pre-hemodialysis blood bicarbonate level of >22mEq/L is frequently not achieved on the commonly used dialysate bicarbonate concentration of 33-35mEq/L. Higher dialysate bicarbonate concentration may correct acidosis and improve bone, muscle & nutritional state. However, it may also induce intra-dialytic metabolic alkalosis/alkalemia and/or increase bicarbonate buffering and CO2 production inducing hypercapnia in patients with disturbed ventilation. Recently Higher dialysate bicarbonate concentration has been demonstrated to be associated with increased mortality. Objectives: To evaluate the effects of high dialysate bicarbonate concentration on correction of acidosis in patients who were acidotic on low dialysate bicarbonate concentration, and on development of intradialytic metabolic alkalosis/alkalemia and/ or hypercapnia. Methods: In a prospective bi-center study, nineteen chronic hemodialysis patients were evaluated on consecutive three-week period on low dialysate bicarbonate concentration (33-34mEq/L) and afterwards high dialysate bicarbonate concentration (40mEq/L). Arterial blood gases and electrolytes were assessed once weekly at start, middle and end of first weekly hemodialysis. Results: On low dialysate bicarbonate concentration pre-hemodialysis blood bicarbonate level was 21.8+3.3 and <22mEq/L in 11 patients. High dialysate bicarbonate concentration in these patients raised pre- hemodialysis blood bicarbonate level to 26.6+5mEq/L but induced intradialytic metabolic alkalosis/alkalemia similarly to the non-acidotic patients (post-hemodialysis: blood bicarbonate level 35.3+1.7mEq/L vs 37+2.1mEq/L, pH 7.52+0.04 vs 7.51+0.04, respectively). There were no significant hypercapnic episodes. Conclusion: high dialysate


American National Kidney Foundations (NKF) Kidney Disease
Outcomes Quality Initiative (KDOQI) guidelines recommend keeping pre-hemodialysis (Pre-HD) blood BIC levels above 22mEq/L [2] and emphasize positive effects of correction of metabolic acidosis (MAC) on nutrition, muscles and bones [3].
The intermittent nature of HD obligates rapid intensive changes, including a high post dialysis SBIC in order to minimize the acidosis which develops afterwards during the inter-dialytic period. Though oral BIC administration was suggested for MAC correction [4], it may be ineffective in non-study conditions due to inadequate adherence and may not lead to muscle status improvement [5].
Therefore, high DBIC (HDBIC), which is not dependent on patients' adherence, may be required. However, as higher dialysate bicarbonate concentration became more prevalent, a large observation cohort study demonstrated that high dialysate bicarbonate concentration was associated with worse outcome especially in the more acidotic patients [6]. HDBIC may be associated with intra-dialytic and post-dialytic adverse events such as metabolic alkalosis (MAl)/alkalemia and hypercapnia. Intradialytic alkolosis/ alkalemia may be associated with augmented decrease in ionized calcium and hypokalemia [7][8][9]. HDBIC increases transfer from the dialysate into the blood of CO 2 and BIC, which is buffered by acids that are present before HD and organic acids produced during HD especially in states of reduced perfusion and hypoxia [10][11][12][13]. This may increase production of CO 2 that is added to the transferred CO 2 , which are usually not associated with hypercapnia or hypoxemia [14,15], but might induce intradialytic hypercapnia in the presence of ventilation disturbances [16,17].
It was suggested that a healthy ventilation response is needed to excrete the excess CO 2 generated during BIC HD [18][19][20].
However, decreased ventilatory response to hypercapnia and frequent phrenic nerve neuropathy have been reported in HD patients [21,22]. In addition, respiratory problems are common in HD patients including pulmonary congestion and hypertension, chronic obstructive pulmonary disease (COPD) and sleep apnea syndrome (SAS) [23,24]. Many HD patients fall asleep during HD and in SAS related daytime somnolence this sleep may be associated with apneic episodes [25]. Opiate administration which may affect ventilation [26] is also common in HD patients due to frequency of severe chronic pain. Thus, we raised the concern that a potential adverse event of HDBC may be intradialytic hypercapnia. Thus, our objectives in this study were to assess effects of low and high DBIC on acid base-balance and respiration, in order to improve adjusting DBIC for different HD patients.

Study Design: The Study is a Prospective Controlled Bi-Center Study
Patients 19 chronic HD patients agreed to participate and were included in the study. Exclusion criteria were HD catheter, hepatitis B or C, infection, malignancy, recent surgery or hospitalization and unstable medical condition. Patients' demographic and co-morbidity characteristics are depicted. There were 12 males, seven females and eight diabetic patients. Patients' age range was 27-82 years. 11 patients were from SUMC and eight from BZMC. Pulmonary status included history of respiratory disease and smoking, chest X-Ray and information on symptoms; cough, dyspnea and daytime fatigue.

Assessment on Low Dialysate BIC Concentration
Patients' blood gases measurements on LDBIC are shown.

Assessment on High Dialysate BIC Concentration
Patients' blood gases measurements on HDBIC are shown. In

Discussion
This study assessed acid-base and respiratory status of HD patients on two different DBIC. We assumed that HDBIC is essential for patients with pre-HD MAC, since it may correct MAC and its adverse effects on bones, muscles, nutritional status and well-being [3,4]. However, we were aware that HDBIC may induce intradialytic alkalemia [8]. We also raised the concern that HDBIC induced increased CO 2 transfer and production may lead to hypercapnia in the presence of ventilatory disturbances, which are frequent in HD patients. As expected, many of the studied patients suffered from MAC on the routine LDBIC which was corrected by HDBIC, and thus may benefit from HDBIC. In the patients who didn't need HDBIC, it also induced pre-HD MAl. We also expected that those patients who started with lower pre-HD SBIC on LDBIC will not reach the high post-HD SBIC levels as the patients who were not acidotic on LDBIC and will be protected from post-HD MAl/alkalemia.

SBIC increase during HDBIC was significantly negatively
correlated with pre-HD BIC as expected, but surprisingly to such an extent that pre-HD SBIC didn't correlate with post-HD SBIC, which was similar in both patients' groups. Moreover, not only that the acidotic patients are not protected from intradialytic alkalosis, on HDBIC post-HD pCO 2 was negatively correlated with pre-HD SBIC. Thus, patients with lower pre-HD SBIC on HDBIC increased their SBIC dramatically but remained with lower post-HD pCO 2 and tendency to increased alkalemia. This may be explained by the limited degree of respiratory compensation to MAl as observed in acute BIC administration [27], and a lag in compensatory hypercapnia to MAl when it evolves rapidly. There were no episodes of clinically significant hypercapnia. We previously reported intradialytic hypercapnia on routinely used DBIC and similar case was reported afterwards. Both patients were morbidly obese chronic HD patients with decreased ventilation reserve in acute unstable condition of pulmonary infection and increased BIC buffering due to sepsis, low tissue perfusion or hypoxemia [9,28].
In such patient's lower dialysate bicarbonate, non-invasive positive pressure ventilation and inter-dialytic oral bicarbonate administration is required [9,28,29]. However, though some of the studied patients had pulmonary disturbances, unstable or infected patients were excluded from the study, and this may explain the absence of severe intra-dialytic hypercapnia. In conclusion, HDBIC corrected the significant and common MAC on LDBIC, but induced asymptomatic intra-dialytic MAl/alkalemia associated with decreased compensatory hypercapnia and no severe hypercapnic episodes. Individual and gradual increase in DBIC evaluating post-HD SBIC, pH, pCO 2 , pO 2 and electrolytes is probably required in acidotic HD patients on LDBIC. A new approach of utilizing a variable dialysate bicarbonate starting with initially high dialysate bicarbonate levels with a subsequent exponential decline, needs to evaluate [30].